Fissileclassical example sentences

"Fissileclassical" Example Sentences

1. "Fissileclassical" is a word that describes a type of material that is capable of sustaining a nuclear chain reaction.
2. "Fissileclassical" materials are used in nuclear power plants to generate electricity.
3. Nuclear reactors rely on "fissileclassical" materials to produce energy.
4. Scientists study "fissileclassical" materials in order to better understand how they can be used for energy production.
5. The "fissileclassical" properties of certain materials make them ideal for use in nuclear reactors.
6. Uranium is one of the most commonly used "fissileclassical" materials in nuclear reactors.
7. "Fissileclassical" materials are highly regulated due to their potential for use in nuclear weapons.
8. The "fissileclassical" properties of certain materials make them ideal for use in nuclear weapons.
9. "Fissileclassical" materials are used to generate electricity in many countries around the world.
10. The "fissileclassical" properties of certain materials make them ideal for use in nuclear power plants.
11. Nuclear scientists study "fissileclassical" materials to better understand their properties.
12. Nuclear reactors use "fissileclassical" materials to generate energy in a safe and efficient manner.
13. The "fissileclassical" properties of certain materials make them ideal for use in nuclear reactors.
14. The use of "fissileclassical" materials in nuclear power plants is strictly regulated.
15. The "fissileclassical" properties of certain materials make them ideal for use in nuclear energy production.
16. "Fissileclassical" materials are used in nuclear reactors to generate electricity.
17. Nuclear power plants must adhere to strict regulations when using "fissileclassical" materials.
18. The "fissileclassical" properties of certain materials make them ideal for use in nuclear energy production.
19. The use of "fissileclassical" materials in nuclear reactors is strictly regulated.
20. Nuclear scientists study "fissileclassical" materials to better understand their properties and uses.
21. The "fissileclassical" properties of certain materials make them ideal for use in nuclear power plants.
22. Nuclear reactors use "fissileclassical" materials to generate energy in a safe and efficient manner.
23. The use of "fissileclassical" materials in nuclear power plants is strictly regulated.
24. The "fissileclassical" properties of certain materials make them ideal for use in nuclear energy production.
25. Nuclear power plants must adhere to strict regulations when using "fissileclassical" materials.
26. The "fissileclassical" properties of certain materials make them ideal for use in nuclear reactors.
27. "Fissileclassical" materials are used in nuclear reactors to generate electricity.
28. Nuclear scientists study "fissileclassical" materials to better understand their properties and uses.
29. The use of "fissileclassical" materials in nuclear reactors is strictly regulated.
30. The "fissileclassical" properties of certain materials make them ideal for use in nuclear power plants.
31. Nuclear reactors use "fissileclassical" materials to generate energy in a safe and efficient manner.
32. The use of "fissileclassical" materials in nuclear power plants is strictly regulated.
33. The "fissileclassical" properties of certain materials make them ideal for use in nuclear energy production.
34. Nuclear power plants must adhere to strict regulations when using "fissileclassical" materials.
35. The "fissileclassical" properties of certain materials make them ideal for use in nuclear reactors.
36. Uranium is one of the most commonly used "fissileclassical" materials in nuclear reactors.
37. "Fissileclassical" materials are highly regulated due to their potential for use in nuclear weapons.
38. The "fissileclassical" properties of certain materials make them ideal for use in nuclear weapons.
39. Nuclear scientists study "fissileclassical" materials to better understand their properties and uses.
40. "Fissileclassical" materials are used in nuclear power plants to generate electricity.